CN207236881U - A kind of gap structure portion of POROUS TITANIUM Invasive lumbar fusion device - Google Patents

Abstract

The utility model discloses a kind of functional part of POROUS TITANIUM Invasive lumbar fusion device, namely disclose a kind of gap structure portion of POROUS TITANIUM Invasive lumbar fusion device.Wherein, the gap structure portion being mutually fixed together with supporting structure portion in integrated is used to guide new Bone Ingrowth.Gap structure portion is in openly to exposing outside on the upside of fusion device, downside, front side, rear side and right side, and open growing space is provided for effective growth of sclerotin etc..The gap structure portion of POROUS TITANIUM Invasive lumbar fusion device provided by the utility model not only can independently exercise the function of oneself, but also can cooperate with supporting structure portion and reach the effect of intervertebral treatment.

Description

A kind of gap structure portion of POROUS TITANIUM Invasive lumbar fusion device

Technical field

The implant for vertebrae is the utility model is related to, belongs to fixed network in intervertebral fusion, and in particular to is a kind of The position of POROUS TITANIUM Invasive lumbar fusion device.

Background technology

The degenerative disc disease of the symptom such as protrusion of lumber intervertebral disc and cervical spondylosis is a kind of common disease in modern society And frequently-occurring disease, seriously affect the quality of life of patient.Spinal fusion is one of most widely used technology of spinal surgery, main logical Cross and establish that backbone is stablized at once and implant ostosis effect, bone inductive effect, bone conduction effect promote backbone Bony union. At present, intervertebral fusion has become treatment lumbar instability, lumbar spinal stenosis, degenerated centrum olisthe, degenerated spine lateral bending, false pass The main means of the illness such as section and degenerative disc disease.Fusion device of the prior art is according to the mode of postoperative bone tissue growth Difference be broadly divided into two types, the first kind is provided with the fusion device of bone graft area, and the second class is not set the fusion device of bone graft area.

Chinese patent literature CN204683846U（Application number 201520112316.X）Disclose a kind of arc anterior lateral cervical approach Fusion device between spinal vertebral.The fusion device generally ellipsoidal structure, top and bottom are equipped with gradual wave rib tooth；Fusion device is also The symmetrical through hole for being provided with two approximate half-circulars set along the vertical direction, and two through holes can conveniently be implanted into autologous bone. The device is designed using super-large diameter, it is possible to increase stability between centrum, can also improve the mechanical strength for bearing compression.The practicality Although new disclosed fusion device possesses relatively stable supporting structure, the effect to regrow of sclerotin is not ideal enough. Fusion device disclosed in the document belongs to first kind fusion device.

Chinese patent literature CN201529176U（Application number 200920247060.8）Disclose one kind and be used for vertebral fusion When the embedded bone trabecula intervertebral fusion device that is implanted into, it has by titanium alloy powder through the molding reticulated porous structures of electron beam melting, shape Shape can be wedge-shaped, square, semicircle or triangle, or be designed according to the concrete condition of patient's diseased region.The bone trabecula There is a through hole in the centre of Invasive lumbar fusion device, and the aperture of net structure is 50-900 microns, porosity 40-90%, and surface is also There can be hydroxyapatite coating layer.Although fusion device disclosed in the utility model can reduce stress shielding band to a certain extent The adverse effect come, and single reticulated porous structures are used, but the effect to regrow of sclerotin is still not ideal enough.This article Offer disclosed fusion device and belong to first kind fusion device.

204581605 U of Chinese patent literature CN（Application number 201520265012.7）A kind of Invasive lumbar fusion device is disclosed, Fusion device body including approximate cuboid, is provided with the bone grafting hole penetrated through vertically, fusion device body in the fusion device body Upper and lower surface be evenly arranged with teeth；The front end face of fusion device body is gradually slipped over to contract by rounding marginal ray Cross, the rear end face of fusion device body is provided with implantation location hole and implantation locating slot；The two sides hollow out of fusion device body runs through, Hollow part is provided with growth net.But since the surrounding of the upper side and lower side of its body occupies certain space, for Postoperative Bone The growth of matter adversely affects.104706446 A of Chinese patent literature CN（Application number 201510129242.5）It is disclosed Fusion device it is also similar with the fusion device.Fusion device disclosed in two documents belongs to first kind fusion device.

Chinese patent literature CN102293693 A（Application number 201110146497.4）Disclosing one kind has bioactivity Porous titanium alloy people's neck Invasive lumbar fusion device and preparation method thereof.The standby Invasive lumbar fusion device of the invention patent system has and natural bone group Similar elasticity modulus is knitted, loose structure and its Internal biological active factors slow-released system can induce freshman bone tissue and grow into.Should Although patent solves the problems, such as that fusion device elasticity modulus matches and Bone Ingrowth with natural bone tissue, but this single more Pore structure（Namely the pore structure portion of fusion device）Lack anti-fatigue ability, be easily broken off under the action of dynamic circulation stress, Cannot meet the needs of Long-Term Clinical.Fusion device disclosed in the document belongs to the second class fusion device.

Utility model content

The purpose of this utility model is that solve the above problems, there is provided a kind of intensity is preferably and with the porous of certain elasticity The gap structure portion of titanium Invasive lumbar fusion device.

Technical solution is used by the utility model solves its technical problem：The sky of the Invasive lumbar fusion device of the utility model Gap structure portion is by a part for the fusion device of titanium alloy material one printing shaping, with supporting structure portion phase by 3D printer The gap structure portion being mutually fixed together in integrated is used to guide new Bone Ingrowth；Gap structure portion on it side, downside, Front side, rear side and right side are in openly to exposing outside, and the corresponding site on front side, rear side and right side is internally positioned communicates In space in triangle cylindricality.

The gap structure portion is formed to be combined by the cell voids in positive tetrahedron structure；Wherein, construction unit is equal Connected and composed by the titanium column of the identical cuboid columnar of 4 root long degree, namely the mutual angle of each titanium column is 109 degree 28 and divides.

The length l of every titanium column in the gap structure portion is 0.3mm to 0.6mm, and width w is identical with thickness h, is 0.1mm to 0.3mm；The porosity in gap structure portion is 70% to 90%.

The good effect that the utility model has：

（1）Fusion device with the utility model gap structure portion is in use, like the effect of human intervertebral disc, has good Good elasticity and toughness, and the micropore in gap structure portion is adapted to growing into for new bone, hypocentrum and POROUS TITANIUM fusion device in promotions Bony union.Phase after the implantation, with regeneration of the bone tissue in microscopic void and the completion rebuild, forms preferable bone-more Hole titanium embedded structure, the physiological loads with mechanical support structure shared backbone position, the Invasive lumbar fusion device of this structure can To be effectively used for the treatment of clinically degenerative disc disease.

（2）The overall structure of the fusion device in the gap structure portion with the utility model is that supporting structure portion is located at interposition Put, and gap structure portion is then arranged on most of region on the periphery at supporting structure position, and gap structure portion is in upper and lower The upward position for exposing the external world accounts for the major part of the upper and lower side of fusion device, when the left and right stent preferably with cross harden structure is made For supporting structure portion agent structure when, not only ensure structural strength, and form front and rear up and down and rear side opening Space, gap structure portion are then located in the open space, can not only effectively ensure that Invasive lumbar fusion device enters early period Internal mechanical support, and after fusion device is implanted into human body, open growth sky is provided for effective growth of sclerotin etc. Between, more it is beneficial to fusion device and incorporates intervertebral.

（3）Why the gap structure portion of the fusion device of the utility model can have good elasticity and toughness, be because Employ and formed in the cell voids combination of positive tetrahedron structure, according to the connection of carbon atom in diamond structures between cell voids The similar connection mode design of mode, so that the POROUS TITANIUM is assigned with certain elasticity, it is enough by conventional titanium alloy fusion device Osseointegration character（Refer to the bone of titanium and patient being combined together, the compatible performance of both osteocyte and titanium）And PEEK materials The low elastic modulus of material fusion device is integrated in one, and compensate for conventional titanium alloy alloy fusion device and PEEK material fusions device each Deficiency.

（4）In order to realize being integrally formed for POROUS TITANIUM Invasive lumbar fusion device, the sky that aperture is suitable, porosity is high is accessed Gap structure, used laser power compare it is small for the power of mechanical support structure, be its 0.5~0.875 times；Using Sweep speed it is slow, be its 0.13~0.3 times；It is it and sweep span is than big more for mechanical support structure For 1.3~2.5 times, thus ensure that fusion device two functional parts can independently exercise oneself function and Achieve the purpose that the effect of intervertebral treatment.

Brief description of the drawings

Fig. 1 is a kind of schematic perspective view using the Invasive lumbar fusion device in the gap structure portion of the utility model.

Fig. 2 is the schematic perspective view in the supporting structure portion in Fig. 1.

Fig. 3 is the schematic top plan view of Fig. 2.

Fig. 4 be from the forward observation of Fig. 2 when schematic diagram.

Fig. 5 is the schematic perspective view in the gap structure portion in Fig. 1.

Fig. 6 is the schematic diagram of the positive tetrahedron construction unit sub-assembly in the gap structure portion in Fig. 5.

Reference numeral in above-mentioned attached drawing is as follows：

Supporting structure portion 1, gap structure portion 2, mounting portion 11, slot device 11-1, instrument hole 11-2, left socle 12, upper left Frame 12-1, lower-left frame 12-2, left column 12-3, connecting portion 13, front column 13-1, rear column 13-2 right supports 14, upper right frame 14-1, bottom right frame 14-2, right central post 14-3, right front column 15, right rear column 16, long L, wide W, high H, titanium column 21, long l are wide W, high h.

Embodiment

Elaborate below in conjunction with the accompanying drawings to the embodiment of the utility model：Following embodiments are with the utility model skill Implemented under premised on art scheme, give detailed embodiment and specific operating process, but the guarantor of the utility model Shield scope is not limited to following embodiments.

（The gap structure portion of embodiment 1, POROUS TITANIUM Invasive lumbar fusion device）

See Fig. 1, Fig. 5 and Fig. 6, the gap structure portion of the POROUS TITANIUM Invasive lumbar fusion device of the present embodiment is will by 3D printer A part for the fusion device of titanium alloy material one printing shaping, mutually one is fixedly connected on supporting structure portion 1 in integrated The gap structure portion 2 risen is used to guide new Bone Ingrowth；Side, downside, front side, rear side and right side are in open on it in gap structure portion 2 With putting formula to exposing outside, and in the internally positioned space in triangle cylindricality communicated of corresponding site on front side, rear side and right side.

The gap structure portion 2 is formed to be combined by the cell voids in positive tetrahedron structure；Wherein, construction unit is equal Connected and composed by the titanium column 21 of the identical cuboid columnar of 4 root long degree, and the mutual angle of each titanium column 21 is 109 degree 28 Point.

The length l of every titanium column 21 in the gap structure portion 2 is 0.3mm to 0.6mm millimeters, width w and thickness h It is identical, it is 0.1mm to 0.3mm；The porosity in gap structure portion 2 is 70% to 90%.

（Application examples 1, Invasive lumbar fusion device）

As shown in Figure 1, the Invasive lumbar fusion device of the application example is by titanium alloy material one printing shaping by 3D printer Structural member.The fusion device is divided into supporting structure portion 1 and gap structure portion 2 according to the difference of role.Supporting structure portion 1 with Gap structure portion 2 is mutually fixed together in integrated.Supporting structure portion 1 is used to undertake external load, gap structure portion 2 For guiding new Bone Ingrowth；The volume in supporting structure portion 1 accounts for the 10% of fusion device cumulative volume.

As described in Figure 2, the supporting structure portion 1 includes mounting portion 11, left socle 12,13 and of connecting portion being sequentially connected Right support 14.Mounting portion 11 is equipped with a pair of slot device 11-1 for dividing front and rear setting and one is located at a pair of of device along left and right to setting Instrument hole 11-2 among tool groove.

Left socle 12 and right support 14 using a pair of of cross harden structure that distribution is set up and down and pass through corresponding column （Left column 12-3 and right central post 14-3）It is connected, is connected between left socle 12 and right support 14 by connecting portion 13, support The connecting portion 13 of structural portion 1 includes front column 13-1, rear column 13-2, upper beam 13-3 and bottom end rail 13-4；Front column 13-1 It is connected between rear column 13-2 by upper beam 13-3 with bottom end rail 13-4.

Left socle 12 has upper left frame 12-1, lower-left frame 12-2 and left column 12-3.Left column 12-3 is connected to a left side Between restocking 12-1 and lower-left frame 12-2.Upper left frame 12-1 and lower-left frame 12-2 is in cross harden structure, and is in from left front at the same time Set after to the right side and from the left back chi structure to before the right side, and left column 12-3 is connected to upper left frame 12-1 and lower-left frame Between the respective crossover sites of 12-2.

The rear and front end in the left side of upper left frame 12-1 is connected with the right side on the top of mounting portion 11, the left side of lower-left frame 12-2 Rear and front end be connected with the right side of the lower part of mounting portion 11.

The rear and front end on the right side of upper left frame 12-1 is connected with the left side on the top of connecting portion 13, namely upper left frame 12-1 Right side front is connected with the upper left-hand of front column 13-1, the right side rear end of upper left frame 12-1 and the upper left-hand of rear column 13-2 It is connected.The front end on the right side of lower-left frame 12-2 is connected with the lower left side of front column 13-1, the rear end on the right side of lower-left frame 12-2 It is connected with the lower left side of rear column 13-2；So that the front and rear sides of left socle 12 are respectively provided with the open space of triangle cylindricality

Right support 14 has upper right frame 14-1, bottom right frame 14-2 and right central post 14-3.Right central post 14-3 is connected to the right side Between restocking 14-1 and bottom right frame 14-2.Upper right frame 14-1 and bottom right frame 14-2 is in cross harden structure, and is in from left front at the same time Set after to the right side and from the left back chi structure to before the right side, and right central post 14-3 is connected to upper right frame 14-1 and bottom right frame Between the respective crossover sites of 14-2

The rear and front end in the left side of upper right frame 14-1 is connected with the right side on the top of connecting portion 13, namely upper right frame 14-1 The front end in left side is connected with the upper right of front column 13-1, the rear end in the left side of upper right frame 14-1 and the top of rear column 13-2 Right side is connected.The rear and front end in the left side of bottom right frame 14-2 is connected with the right side of the lower part of connecting portion 13, namely bottom right frame 14-2 Left side front end and front column 13-1 lower part on the right side of be connected, under the rear end in the left side of bottom right frame 14-2 and rear column 13-2 It is connected on the right side of portion.So that the front and rear sides and right side of right support 14 are respectively provided with the open space of triangle cylindricality.

Supporting structure portion 1 is additionally provided with right front column 15 and right rear column 16, and right front column 15 is connected to upper right frame 14-1's Between right front ends and the right front ends of bottom right frame 14-2, right rear column 16 is connected to the right rear end and bottom right frame 14-2 of upper right frame 14-1 Right rear end between.

The front and rear side of the left socle 12 in the supporting structure portion 1, the front and rear side and right side of right support 14 are in open Set, the design of this supporting structure, can either effectively ensure that Invasive lumbar fusion device enters internal mechanical support early period, at the same time The design of four-bladed vane support provides open structure design while supporting structure surface maximum mechanical strength is ensured Space, ensure that after fusion device is implanted into human body, possibility that sclerotin is grown according to open mode is more beneficial to melt Clutch incorporates intervertebral.

See Fig. 3, the length L of the mechanical support structural portion 1 in the present embodiment is 28mm, and wide W is 11mm.

See Fig. 4, the height H of the mechanical support structural portion 1 in the present embodiment is 4mm, the appearance of the upside in supporting structure portion 1 The middle part in face is higher, left and right sides position is relatively low, and arc-shaped curved surface is set, and belongs to and meets the outer of physiology curved surface between cone Surface.Corresponding, the middle part of the outer surface of the downside in supporting structure portion 1 is downwardly projecting more, left and right sides position Protrude less, and also arc-shaped curved surface is set, and belongs to the outer surface for meeting the physiology curved surface between cone.

See Fig. 5 and Fig. 6, the structure that the gap structure portion 2 in the application example is described using embodiment 1, namely gap structure Portion 2 is to be formed by being combined substantially in the cell voids of the diamond lattic structure of positive tetrahedron structure, according to Buddha's warrior attendant between cell voids The connection mode of carbon atom is connected in stone structure.Wherein, the titanium column of the cuboid columnar identical by 4 root long degree of construction unit 21 connect and compose according in the structure of positive tetrahedron, namely the mutual angle of each titanium column 21 is 109 degree 28 and divides.Every titanium column 21 length is 0.5mm, and width and thickness are 0.2mm.The porosity in gap structure portion 2 is 80%.So between cell voids Designed according to the similar connection mode of the connection mode of carbon atom in diamond structures, so as to assign the POROUS TITANIUM with certain bullet Property, enough osseointegration characters by conventional titanium alloy fusion device（Refer to the bone of titanium and patient being combined together, osteocyte and titanium Both compatible performances）And the low elastic modulus of PEEK material fusion devices is integrated in one, and compensate for conventional titanium alloy alloy Fusion device and the respective deficiency of PEEK material fusion devices.

The specific implementation step for preparing the fusion device of said structure is as follows：

1. utilize CAD（CAD）Software carries out the configuration design of Invasive lumbar fusion device, can be with people's vertebra The anatomical contours of body match；The CAD software is Unigraphics, Pro/E, Solidworks etc..

2. matching mechanical support structure is designed in fusion device appearance profile, 1 supporting structure volume of the present embodiment The 10% of fusion device cumulative volume is accounted for, mechanical support structure CAD data are stored with independent STL data formats.

3. designing micropore structure in the remaining space for removing mechanical support structure, pore-size is 200 μm, microcosmic Pore structure CAD data is stored with independent STL data formats.

4. it is soft that the STL data of mechanical support structure and micropore structure STL data are directed respectively into hierarchy slicing processing Part, and mechanics supporting structure and relative tertiary location during micropore structure design are kept, then, handled using hierarchy slicing Software carries out hierarchy slicing processing to mechanical support structure and micropore structure STL data, be converted into respectively two it is independent 2-D data message file.

5. the independent 2-D data message file of mechanical support structure and micropore structure two is imported 3D printing to set Standby control software, keeps relative tertiary location when mechanics supporting structure and micropore structure design, sets corresponding 3D to beat Print technological parameter.

6. using titanium alloy powder as raw material, carry out integrated 3D printing and make, obtain POROUS TITANIUM Invasive lumbar fusion device.

Wherein, it is corresponding to the 3D printing manufacture craft parameter of mechanical support structure：The power of laser is 160W, scanning speed Spend for 1000mm/s, powdering thickness is 0.02mm, sweep span：80μm.Corresponding to micropore structure 3D printing manufacture craft Parameter is：The power of laser is 100W；Sweep speed is 200mm/s；Powdering thickness is 0.02mm；Sweep span：160μm.Adopt With this process design parameter, two kinds of structures can be made not only to be individually present but also cooperate, form the more of complete composite construction Hole titanium Invasive lumbar fusion device.

Claims (3)

1. a kind of gap structure portion of POROUS TITANIUM Invasive lumbar fusion device, for by 3D printer by titanium alloy material one printing shaping Fusion device a part, it is characterised in that：With supporting structure portion（1）The gap knot being mutually fixed together in integrated Structure portion（2）For guiding new Bone Ingrowth；Gap structure portion（2）Side, downside, front side, rear side and right side are in openly on it To exposing outside, and in the internally positioned space in triangle cylindricality communicated of corresponding site on front side, rear side and right side.

2. the gap structure portion of POROUS TITANIUM Invasive lumbar fusion device according to claim 1, it is characterised in that：The gap knot Structure portion（2）Formed to be combined by the cell voids in positive tetrahedron structure；Wherein, construction unit is by the identical length of 4 root long degree The titanium column of cube cylindricality（21）Connect and compose, namely each titanium column（21）Mutual angle is 109 degree 28 and divides.

3. the gap structure portion of POROUS TITANIUM Invasive lumbar fusion device according to claim 2, it is characterised in that：The gap knot Structure portion（2）In every titanium column（21）Length l be 0.3mm to 0.6mm millimeter, width w is identical with thickness h, for 0.1mm extremely 0.3mm；Gap structure portion（2）Porosity be 70% to 90%.